# 2 "asmcomp/power/arch.ml" (**************************************************************************) (* *) (* OCaml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 Institut National de Recherche en Informatique et *) (* en Automatique. *) (* *) (* All rights reserved. This file is distributed under the terms of *) (* the GNU Lesser General Public License version 2.1, with the *) (* special exception on linking described in the file LICENSE. *) (* *) (**************************************************************************) (* Specific operations for the PowerPC processor *) open Format type cmm_label = int (* Do not introduce a dependency to Cmm *) (* Machine-specific command-line options *) let command_line_options = [] (* Specific operations *) type specific_operation = Imultaddf (* multiply and add *) | Imultsubf (* multiply and subtract *) | Ialloc_far of (* allocation in large functions *) { bytes : int; dbginfo : Debuginfo.alloc_dbginfo } | Ipoll_far of { return_label : cmm_label option } (* poll point in large functions *) | Icheckbound_far (* bounds check in large functions *) | Icheckbound_imm_far of int (* bounds check in large functions, constant 2nd arg (the index) *) (* Addressing modes *) type addressing_mode = Ibased of string * int (* symbol + displ *) | Iindexed of int (* reg + displ *) | Iindexed2 (* reg + reg *) (* Sizes, endianness *) let big_endian = match Config.model with | "ppc64" -> true | "ppc64le" -> false | _ -> assert false let size_addr = 8 let size_int = size_addr let size_float = 8 let allow_unaligned_access = true (* Behavior of division *) let division_crashes_on_overflow = true (* Operations on addressing modes *) let identity_addressing = Iindexed 0 let offset_addressing addr delta = match addr with Ibased(s, n) -> Ibased(s, n + delta) | Iindexed n -> Iindexed(n + delta) | Iindexed2 -> assert false (* Printing operations and addressing modes *) let print_addressing printreg addr ppf arg = match addr with | Ibased(s, n) -> let idx = if n <> 0 then Printf.sprintf " + %i" n else "" in fprintf ppf "\"%s\"%s" s idx | Iindexed n -> let idx = if n <> 0 then Printf.sprintf " + %i" n else "" in fprintf ppf "%a%s" printreg arg.(0) idx | Iindexed2 -> fprintf ppf "%a + %a" printreg arg.(0) printreg arg.(1) let print_specific_operation printreg op ppf arg = match op with | Imultaddf -> fprintf ppf "%a *f %a +f %a" printreg arg.(0) printreg arg.(1) printreg arg.(2) | Imultsubf -> fprintf ppf "%a *f %a -f %a" printreg arg.(0) printreg arg.(1) printreg arg.(2) | Ialloc_far { bytes; _ } -> fprintf ppf "alloc_far %d" bytes | Ipoll_far _ -> fprintf ppf "poll_far" | Icheckbound_far -> fprintf ppf "check_far > %a %a" printreg arg.(0) printreg arg.(1) | Icheckbound_imm_far n -> fprintf ppf "check_far > %a %d" printreg arg.(0) n (* Specific operations that are pure *) let operation_is_pure = function | Ialloc_far _ | Ipoll_far _ | Icheckbound_far | Icheckbound_imm_far _ -> false | _ -> true (* Specific operations that can raise *) let operation_can_raise = function | Ialloc_far _ | Ipoll_far _ | Icheckbound_far | Icheckbound_imm_far _ -> true | _ -> false